KR20190110774A - Prefabricated pipe farm - Google Patents

Abstract

An assembling type pipe farm according to an embodiment of the present invention comprises: a supply body unit formed in a pipe shape and positioned in a vertical direction; one or more cultivation body units each formed in a pipe shape and extending upward from an outer surface of the supply body unit; and a guide unit formed in a pipe shape and positioned inside the supply body unit so as to be spaced apart from an inner surface of the supply body unit. A plant is inserted into a top surface of the cultivation body unit, a nutrient solution is supplied to the supply body unit, discharged through a bottom surface of the supply body unit by the guide unit, or is introduced into the cultivation body unit.

Description

Prefabricated Pipe Farms {PREFABRICATED PIPE FARM}

The present invention relates to a prefabricated pipe farm, and more particularly, to a prefabricated pipe farm for hydroponic cultivation consisting of a simple configuration so that it can be easily assembled or separated by pipes up and down or left and right.

People tend to live in apartments such as apartments and villas. In particular, the share of multi-family dwellings in large cities exceeds 80%. In such large urban apartments, there is a lack of opportunities to encounter the natural environment. In large cities, when apartments are built, parks are being built to enjoy the natural environment. In addition, the veranda or the indoor space is used as a plant cultivation space so that the environment and natural beauty can be felt through plants and landscaping in the apartment house. Here, there is a need for a simple hydroponic cultivator capable of growing a variety of plants, for example, vegetables or flowers. Also, people have recently valued food-mileage, which adds value to how close food is produced. In addition, there is a high demand for eco-friendly and organic vegetables. Due to the various needs as described above, the cultivation of plants in multi-family housing is often inconvenient to use soil, so that the hydroponic cultivation method. Hydroponic cultivation is adopted in not only multi-family houses but also plastic houses.

General hydroponic cultivation is used to cultivate plants such as fruits and vegetables by hanging one by one or hanging on a tree branch or wall. Skill is required.

Technical task of the prefabricated pipe farm according to the technical idea of the present invention, to provide a prefabricated pipe farm that can be easily assembled or separated.

In addition, the technical problem to be achieved by the prefabricated pipe farm according to the technical idea of the present invention, to provide a prefabricated pipe farm that can reduce the space for installation and reduce the time and cost for plant cultivation.

Technical problem to be achieved by the prefabricated pipe farm according to the technical idea of the present invention is not limited to the above-mentioned task, another task not mentioned will be clearly understood by those skilled in the art from the following description.

Prefabricated pipe farm according to an embodiment according to the spirit of the present invention, the feed body is made in the shape of a pipe, located in the vertical direction; At least one cultivation body portion each made of a pipe shape and extending upward from an outer surface of the supply body portion; And a guide portion formed in a pipe shape and positioned inside the feed body portion so as to be spaced apart from the inner side of the feed body portion, wherein the plant is inserted into the top surface of the cultivation body portion, and the nutrient solution is supplied through the top surface of the feed body portion. Is supplied to, discharged through the lower end of the supply body portion by the guide portion, it may be characterized in that it is introduced into the cultivation body portion.

In addition, the prefabricated pipe farm may further include a body connection portion formed in a pipe shape and connected to an upper end portion and a lower end portion of the supply body portion.

In addition, the prefabricated pipe farm may further include a body extension portion formed in a pipe shape and connected to an upper end of the cultivation body portion.

In addition, a support protrusion protrudes along the circumferential direction of the supply body portion, and the guide portion is supported by the support protrusion on the lower inner surface of the supply body portion, and the inner diameter of the guide portion may be equal to or less than the inner diameter of the support protrusion.

In addition, the water level adjusting device may be formed on the outer surface of the guide portion.

In addition, the inner surface of the supply body portion between the support projection and the cultivation body portion is formed with a fixing projection along the circumferential direction of the supply body portion, the inner diameter of the fixing projection corresponds to the outer diameter of the guide portion, when the guide portion is located inside the supply body portion The fixing protrusion may be in contact with the outer surface of the guide portion.

In addition, a sieve having a plurality of openings may be formed inside the culture body so as to be adjacent to the supply body.

In addition, the cultivation body portion is made of one or two, it may be separated into bisecting on the basis of the separation line with the supply body portion.

In addition, the inner diameter of the cultivation body portion may be larger than the inner diameter of the supply body portion.

In addition, a gear is formed along the circumferential direction of the lower end outer surface of the supply body portion or the outer surface of the body connecting portion, a part of the gear meshes with the worm gear, and the worm gear can be rotated by the drive unit to rotate the supply body portion while rotating the gear. .

Prefabricated pipe farm according to embodiments of the present invention has the following effects.

(1) Can be easily assembled or separated.

(2) Mass production can be achieved with little labor through solid farming, hydroponic farming and automation in facility farms.

However, the effect that the prefabricated pipe farm according to an embodiment of the present invention can achieve is not limited to those mentioned above, and other effects not mentioned may be clearly understood by those skilled in the art from the following description. There will be.

BRIEF DESCRIPTION OF THE DRAWINGS In order to better understand the drawings referred to herein, a brief description of each drawing is provided.
1 is a perspective view showing a prefabricated pipe farm according to a preferred embodiment of the present invention.
FIG. 2 is a perspective view showing the assembled pipe farm shown in FIG. 1 separately.
3 is a cross-sectional view showing the prefabricated pipe farm shown in FIG. 1.
FIG. 4 is a view illustrating a state in which the prefabricated pipe farm shown in FIG. 1 is stacked.

The present invention may be variously modified and have various embodiments, and specific embodiments are illustrated in the drawings and described in detail with reference to the accompanying drawings. However, this is not intended to limit the present invention to specific embodiments, it should be understood that the present invention includes all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

In describing the present invention, when it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the numbers (eg, first, second, etc.) used in the description process of the present specification are merely identification symbols for distinguishing one component from another component.

In addition, in the present specification, when one component is referred to as "connected" or "connected" with another component, the one component may be directly connected or directly connected to the other component, but in particular It is to be understood that, unless there is an opposite substrate, it may be connected or connected via another component in the middle.

In addition, the components represented by '~' in the present specification may be divided into two or more components by combining two or more components into one component, or by one or more components. In addition, each component to be described below may additionally perform some or all of the functions of other components in addition to the main functions of which they are responsible, and some of the main functions of each of the components may be different. Of course, it may be carried out exclusively by the component.

Hereinafter, embodiments according to the spirit of the present invention will be described in detail.

1 is a perspective view showing a prefabricated pipe farm 100 according to a preferred embodiment of the present invention, FIG. 2 is a perspective view showing the prefabricated pipe farm 100 shown in FIG. 1 separately, and FIG. It is sectional drawing which shows the prefabricated pipe farm 100 shown in FIG. 4, and FIG. 4 is a figure which shows the mode of using the prefabricated pipe farm 100 shown in FIG.

As shown in Figures 1 to 4, the prefabricated pipe farm 100 according to a preferred embodiment of the present invention includes a supply body portion 101, the cultivation body portion 102, and the guide portion 103, It can be used to grow plants by feeding nutrient solution. Here, the nutrient solution refers to an aqueous solution containing water, inorganic nutrients, etc. and dissolving the inorganic nutrients necessary for the growth of the plant in water, and the plant means a plant that can grow by absorbing the nutrient solution.

The supply body portion 101 is made in the shape of a pipe and may be positioned in the vertical direction. Here, the nutrient solution may be supplied through the top surface of the supply body portion 101 and discharged through the bottom surface of the supply body portion 101. In other words, the supply body portion 101 may provide a function as a supply path of the nutrient solution.

The support protrusion 111 may protrude along the circumferential direction of the supply body 101 on the lower inner side surface of the supply body 101. The support protrusion 111 may form an inner diameter smaller than the inner diameter of the supply body portion 101.

The cultivation body 102 is made of one or more, made of a pipe shape. The cultivation body portion 102 may extend from the outer side of the supply body portion 101 and face upwards. Here, the cultivation body 102 may be a bent shape.

When the cultivation body portion 102 is composed of a plurality, it may be located along the circumferential direction of the supply body portion 101 so as to have the same size and shape, and are spaced at regular intervals from each other. Due to this, the cultivation body 102 can be combined with the supply body 101 to provide the appearance and structure of a stable prefabricated pipe farm 100.

The plant may be inserted into the cultivation body 102 through the top surface of the cultivation body 102. That is, the interior of the cultivation body 102 may provide a function as a cultivation space for the plant. In addition, the interior of the cultivation body portion 102 is connected with the interior of the supply body portion (101). The nutrient solution supplied through the top surface of the supply body portion 101 is introduced into the culture body portion 102, it can be used to grow plants.

In addition, the strainer 121 may be formed inside the cultivation body 102. The sieve 121 has a plate shape having a plurality of openings 121a and may be positioned to be adjacent to the supply body 101 while closing the flow path of the nutrient solution. The nutrient solution may enter the cultivation body portion 102 from the supply body portion 101 through the openings 121a and may flow between the supply body portion 101 and the cultivation body portion 102. A culture medium (eg, coco chips, masato, artificial soil, etc.) may be inserted into the cultivation body 102. The medium may not be introduced into the supply body portion 101 by the strainer 121. Due to this, the strainer 121 can prevent the supply body 101 from being closed by the medium.

Although the openings 121a of the sieve 121 of the present embodiment are illustrated as being formed in a straight line shape formed in parallel, the present invention is not limited thereto and may be formed in various shapes such as a circle and a rectangle. Here, the opening 121a is preferably smaller than the particle size of the medium.

The interior of the cultivation body 102 is a space where the plant is inserted and the plant grows. For this reason, it may be preferable that the inner diameter of the cultivation body portion 102 is larger than the inner diameter of the supply body portion 101. Here, when the cultivation body portion 102 is formed of a plurality, it may be connected to the supply body portion 101 in the form of a whole enclosed along the circumferential direction of the supply body portion 101, may be directly connected to each other.

The cultivation body portion 102 of the present embodiment is shown as being made of two, but is not limited to this is preferably made of even number, such as four, six, etc. while forming a left-right symmetry. Here, the cultivation body portion 102 is formed along the circumferential direction of the supply body portion 101 at regular intervals from each other and have the same size and shape, thereby forming a U-shape.

As shown in FIG. 2, the two cultivation body portion 102 may be divided into two parts together with the supply body portion 101. That is, the supply body portion 101 and the cultivation supply portion 102 may be formed of two body members symmetrical to each other based on the separation line in a state of being integral. Here, the separation line means an imaginary line connecting the center of the top surface of the supply body portion 101 and the center of the top surface of the cultivation body portion 102. A yaw portion may be formed in the right end surface of the two body members separated along the separation line, and an iron portion may be formed in the left end surface. Here, the cross section means a cutaway surface formed as the two separated body members are separated. As the concave portion and the iron portion are formed along the cross section and joined to each other, the cross sections of the two body members may be in close contact with each other so that the nutrient solution may not leak through the two body members. The two body members as described above can be transported in an overlapping state, which can reduce the loading space for transport and can be assembled into the prefabricated pipe farm 100 at the installation site.

The guide portion 103 has a pipe shape and is located inside the supply body portion 101 so as to be spaced apart from an inner side surface of the supply body portion 101. Here, the guide part 103 is supported by the support protrusion 111. That is, the guide part 103 is located on the upper surface of the support protrusion 111. The inner diameter of the guide portion 103 is preferably equal to or smaller than the inner diameter formed by the support protrusion 111. Due to this, after the nutrient solution is supplied to the supply body portion 101, the nutrient solution may be introduced into and discharged from the guide portion 103 to be discharged from the supply body portion 101, but is discharged through the bottom surface of the supply body portion 101. It may not be.

In addition, the guide portion 103 needs to be fixed to the supply body portion 101 in a state spaced apart from the inner surface of the supply body portion 101.

A fixing protrusion 113 may be formed along the circumferential direction of the supply body portion 101 on the inner surface of the supply body portion 101 between the support protrusion 111 and the cultivation body portion 102. Here, the fixing protrusion 113 may be formed to be adjacent to the cultivation body portion (102). The fixing protrusion 113 may form an inner diameter corresponding to the outer diameter of the guide part 103.

Fixing protrusion 113 is located on the lower side of the cultivation body portion 102, it may not prevent the nutrient solution flows into the cultivation body portion (102). In addition, in the state in which the guide portion 103 is inserted into the supply body portion 101, the fixing projection 113 is in contact with the outer surface of the guide portion 103, the guide portion 103 to the supply body portion 101 It can be kept fixed in the interior.

The guide portion 103 as described above guides the nutrient solution supplied through the top surface of the supply body portion 101. A part of the nutrient solution supplied to the supply body portion 101 may be introduced into the guide portion 103 and discharged through the bottom surface of the supply body portion 101. On the other hand, the remaining portion of the nutrient solution supplied to the supply body portion 101 is introduced between the outer surface of the guide portion 103 and the inner surface of the supply body portion 101 by the guide portion 103 and the cultivation body portion 102 Can be supplied to.

Since the lower end surface of the guide portion 103 is in contact with the upper surface of the support protrusion 111 of the supply body portion 101, the lower end between the outer surface of the guide portion 103 and the inner surface of the supply body portion 101 is It can be sealed. In addition, the fixing protrusion 113 is in contact with the outer surface of the guide portion 103 to seal between the outer surface of the guide portion 103 and the inner surface of the supply body portion 101 above the support protrusion 111. Can be. Because of this, after the nutrient solution flows between the outer surface of the guide portion 103 and the inner surface of the supply body portion 101, the supply body portion 101 is not discharged through the lower surface of the supply body portion 101 Is stably introduced into the interior of the cultivation body 102 may be supplied.

In addition, the top surface of the guide portion 103 may be located above the connecting portion of the supply body portion 101 and the cultivation body portion 102. Here, the nutrient solution may be introduced into the cultivation body 102 in a state separated by the guide portion 103. Due to this, the nutrient solution flows into the cultivation body portion 102 at a relatively small pressure, so that the root of the plant can be prevented from being separated from the supply body portion 101, and the plant is inserted into the cultivation body portion 102. Can be maintained.

In addition, one or more water level adjusting holes 131 may be formed on the outer surface of the guide part 103. When the nutrient solution is not supplied to the supply body portion 101, the water surface of the nutrient solution in the supply body portion 101 may be located above the water level regulator 131. At this time, the nutrient solution may be introduced into the guide portion 103 through the water level control unit 131 may be discharged from the supply body portion 101. Due to this, the water level of the nutrient solution in the supply body portion 101 and the cultivation body portion 102 can be maintained at the level set by the water level control 131.

Meanwhile, the prefabricated pipe farm 100 of the present embodiment may further include a body connection part 104 and a body extension part 105.

Body connecting portion 104 has a pipe shape, it may be connected to the upper end of the supply body portion 101 and the lower end of the supply body portion (101). The body connection part 104 may be separated from the supply body part 101 in a state connected to the supply body part 101. Here, the supply body portion 101 may be inserted into the body connecting portion 104 may be connected to the body connecting portion 104.

As shown in Figure 4, the body connecting portion 104 is also connected to the lower end of the supply body 101 of the prefabricated pipe farm 100 located on the upper side, supply of the prefabricated pipe farm 100 located on the lower side It may also be connected to the upper end of the body portion (101). Thus, the plurality of prefabricated pipe farms 100 may be stacked by connecting the supply body parts 101 arranged in the vertical direction using the body connection part 104. Thus, the prefabricated pipe farm 100 of the present embodiment can reduce the space for installation.

In addition, the body connecting portion 104 may be used to connect the nutrient solution supply pipe 11 connected to the nutrient solution supply body 10 to the supply body portion 101. For example, the upper end of the supply body portion 101 of the prefabricated pipe farm 100 located at the top of the stacked prefabricated pipe farms 100 may be connected to the nutrient solution supply pipe 11, and located at the bottom thereof. The lower end of the supply body 101 of the prefabricated pipe farm 100 may also be connected to the nutrient solution supply pipe (11). Here, the nutrient solution supply body 10 may operate the pump 10a in a state in which the nutrient solution is stored, and supply the nutrient solution to the prefabricated pipe farm 100 positioned at the top through the nutrient solution supply pipe 11. The nutrient solution flows downward along the supply body 101 and the body connecting portion 104 of the prefabricated pipe farm 100 stacked after being fed to the prefabricated pipe farm 100 positioned on the top side, and is located at the bottom of the prefabricated pipe farm 100. It is supplied to the pipe farm 100. This nutrient solution may finally be recovered to the nutrient solution supply body 10 through the nutrient solution supply pipe 11. That is, the nutrient solution may be circulated while passing through the stacked prefabricated pipe farms 100. Due to this, the plant can be grown while being easily managed through the supply of nutrient solution, so that the time and cost for the cultivation of the plant can be significantly reduced.

On the other hand, the gear 110 may be formed on the outer surface of the body connecting portion 104. Here, the gear 110 may be formed along the circumferential direction of the body connection part 104. A portion of the gear 110 is engaged with the worm gear 120, and the worm gear 120 is connected to the driving unit 130. Here, the driving unit 130 may be a reduction motor.

When the drive unit 130 rotates the worm gear 120, the worm gear 120 rotates the gear 110, and thus the supply body 101 is rotated about an axis along the vertical direction. Due to this, the plant is rotated in the state inserted in the cultivation body 102 formed along the circumferential direction of the supply body portion 101, it is possible to evenly receive the sun.

In addition, the gear 110 may be formed on the outer surface of the lower end of the supply body 101 in place of the outer surface of the body connecting portion 104.

In particular, the gear 110 is connected to the lower end of the supply body 101 or the lower end of the supply body 101 of the prefabricated pipe farm 100 located in the lowermost position in the prefabricated pipe farm 100 in a stacked state It is preferably formed in the body connecting portion 104. Thus, the prefabricated pipe farms 100 in a stacked state can be stably rotated, thereby stably exposing the inserted plants to the sun.

Body extension 105 is made of a pipe shape, it can be connected to the upper end of the cultivation body (102). The body extension 105 may be separated from the cultivation body 102 in a state connected to the cultivation body 102. Here, the cultivation body 102 may be inserted into the body extension 105 and connected to the body extension 105. The plant may be inserted into the cultivation body 102 through the body extension 105.

Body extension 105 is connected to the upper end of the cultivation body portion 102, in combination with the cultivation body portion 102 can increase the space in which the plant can be inserted. When the plant is grown to grow taller, the side of the plant may be supported by the body extension 105. Because of this, the plant can be maintained in a stable state inserted into the cultivation body portion 102 without being separated from the cultivation body portion 102 even if it is grown or tilted.

On the other hand, as shown in Figure 2, when the two cultivation body portion 102 can be separated into two parts with the supply body portion 101, the body connecting portion 104 of the supply body portion 101 To prevent separation, the body extension 105 prevents the separation of the cultivation body 102. That is, the body connection 104 and the body extension 105 can be used to stably maintain the appearance of the prefabricated pipe farm 100.

As mentioned above, although the technical idea of the present invention has been described in detail with reference to a preferred embodiment, the technical idea of the present invention is not limited to the above embodiments, and having ordinary skill in the art within the scope of the technical idea of the present invention. Many modifications and variations are possible.

100: prefabricated pipe palm
101: supply body
111: support protrusion
113: fixing protrusion
102: cultivation body
121: sieve
121a: opening
103: guide part
131: level control
104: body connection
105: body extension

Claims (10)

A feed body portion formed in a pipe shape and positioned in a vertical direction;
At least one cultivation body portion each made of a pipe shape and extending upward from an outer surface of the supply body portion; And
Comprising a pipe shape, including a guide portion located inside the supply body portion to be spaced apart from the inner surface of the supply body portion,
The plant is inserted into the top surface of the cultivation body portion, the nutrient solution is supplied to the supply body portion through the top surface of the supply body portion, discharged through the bottom surface of the supply body portion by the guide portion, or is introduced into the cultivation body portion Prefab pipe farm.
The method of claim 1, wherein the prefabricated pipe farm,
Prefabricated pipe farm, characterized in that the pipe further comprises a body connecting portion connected to the upper end and the lower end of the supply body portion.
The method of claim 1, wherein the prefabricated pipe farm,
Prefabricated pipe farm, characterized in that the pipe further comprises a body extension portion connected to the upper end of the cultivation body portion.
The method of claim 1,
Prefabricated pipe farm, characterized in that the water level control is formed on the outer surface of the guide portion.
The method of claim 1,
Supporting protrusions protrude along the circumferential direction of the supply body portion at the lower inner side of the supply body portion,
The guide portion is supported by the support protrusion,
The inner diameter of the guide portion is the prefabricated pipe farm, characterized in that less than the inner diameter of the support projection.
The method of claim 5,
On the inner side of the feed body portion between the support protrusion and the cultivation body portion, a fixing protrusion is formed along the circumferential direction of the feed body portion,
The inner diameter of the fixing protrusion corresponds to the outer diameter of the guide portion,
Prefabricated pipe farm, characterized in that when the guide portion is located inside the supply body portion, the fixing projection is in contact with the outer surface of the guide portion.
The method of claim 1,
Prefabricated pipe farm, characterized in that the sieve having a plurality of openings are formed inside the cultivation body portion adjacent to the supply body portion.
The method of claim 1,
The cultivation body portion is made of one or two, prefabricated pipe farm, characterized in that it is separated into bisecting on the basis of the separation line with the supply body portion.
The method of claim 1,
Prefabricated pipe farm, characterized in that the inner diameter of the cultivation body portion is larger than the inner diameter of the supply body portion.
The method of claim 2,
Gears are formed along the circumferential direction on the outer surface of the lower end of the supply body portion or the outer surface of the body connecting portion, and a part of the gear meshes with the worm gear,
The worm gear is a prefabricated pipe farm, characterized in that for rotating the feed body while rotating the gear by the drive unit.

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